• 제목/요약/키워드: propeller boss cap fins (PBCF)

검색결과 4건 처리시간 0.017초

Numerical study of propeller boss cap fins on propeller performance for Thai Long-Tail Boat

  • Kaewkhiaw, Prachakon
    • Ocean Systems Engineering
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    • 제11권4호
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    • pp.373-392
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    • 2021
  • The present paper purposes a numerical evaluation of the Thai Long-Tail Boat propeller (TLTBP) performance by without and with propeller boss cap fins (PBCF) in full-scale operating straight shaft condition in the first. Next, those are applied to inclined shaft conditions. The actual TLTBP has defined an inclined shaft propeller including the high rotational speed, therefore vortex from the propeller boss and boss cap (hub vortex) have been generated very much. The PBCF designs are considered to weaken of vortex behind the propeller boss which makes the saving energy for the propulsion systems. The blade sections of PBCF developed from the original TLTBP blade shape. The integrative for the TLTBP and the PBCF is analyzed to increase the performance using computational fluid dynamics (CFD). The computational results of propeller performance are thoroughly compared between without and with PBCF. Moreover, the effects of each PBCF component are computed to influence the TLTBP performance. The fluid flows around the propeller blades, propeller boss, boss cap, and vortex have been investigated in terms of pressure distribution and wake-fields to verify the increasing efficiency of propulsion systems.

Parametric study of propeller boss cap fins for container ships

  • Lim, Sang-Seop;Kim, Tae-Won;Lee, Dong-Myung;Kang, Chung-Gil;Kim, Soo-Young
    • International Journal of Naval Architecture and Ocean Engineering
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    • 제6권2호
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    • pp.187-205
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    • 2014
  • The global price of oil, which is both finite and limited in quantity, has been rising steadily because of the increasing requirements for energy in both developing and developed countries. Furthermore, regulations have been strengthened across all industries to address global warming. Many studies of hull resistance, propulsion and operation of ships have been performed to reduce fuel consumption and emissions. This study examined the design parameters of the propeller boss cap fin (PBCF) and hub cap for 6,000TEU container ships to improve the propulsion efficiency. The design parameters of PBCF have been selected based on the geometrical shape. Computational fluid dynamics (CFD) analysis with a propeller open water (POW) test was performed to check the validity of CFD analysis. The design of experiment (DOE) case was selected as a full factorial design, and the experiment was analyzed by POW and CFD analysis. Analysis of variance (ANOVA) was performed to determine the correlation among design parameters. Four design alternatives of PBCF were selected from the DOE. The shape of a propeller hub cap was selected as a divergent shape, and the divergent angle was determined by the DOE. Four design alternatives of PBCF were attached to the divergent hub cap, and the POW was estimated by CFD. As a result, the divergent hub cap with PBCF has a negative effect on the POW, which is induced by an increase in torque coefficient. A POW test and cavitation test were performed with a divergent hub cap with PBCF to verify the CFD result. The POW test result showed that the open water efficiency was increased approximately 2% with a divergent hub cap compared to a normal cap. The POW test result was similar to the CFD result, and the divergent hub cap with the PBCF models showed lower open water efficiency. This was attributed to an increase in the torque coefficient just like the CFD results. A cavitation test was performed using the 2 models selected. The test result showed that the hub vortex is increased downstream of the propeller.

수처리 교반기의 프로펠러 허브 볼텍스 제어 (Control of Propeller Hub Vortex for Water Treatment Mixer)

  • 김대한;문영준
    • 한국유체기계학회 논문집
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    • 제19권2호
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    • pp.11-15
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    • 2016
  • In this study, the generation of the propeller hub vortex was analyzed and a PBCF(Propeller Boss Cap Fins) was designed to control the propeller hub vortex. A RANS(Reynolds-averaged Navier-stokes) approach is employed to predict the hub vortex characteristics. The hub profile is an important factor but only a small increase (1.9%) of efficiency was obtained with the hub profile modification. The propeller hub vortex was eliminated by installing the PBCF and as a result, the propeller efficiency was increased by 5.6%.

산적화물선의 에너지 저감 장치들의 성능 비교에 관한 연구 (A Study on the Performance Comparison of Energy Saving Devices for Handy-size Bulk Carrier)

  • 김억규;이강기;조권회
    • Journal of Advanced Marine Engineering and Technology
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    • 제39권1호
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    • pp.1-7
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    • 2015
  • 최근에 CO2 배출에 대한 환경 규제가 마련되었고, 연료유 가격은 계속해서 상승하고 있다. 이런 상황들을 극복하기 위해 연료소모량을 감소시키고 추진효율을 개선한 에너지 저감 추진장치들이 계속해서 개발되고 있다. 본 논문에는 핸디형 산적화물선에 적용한 PBCF, SCHNEEKLUTH duct, 비대칭 러더 벌브, Mewis duct의 성능 실험을 서술하였다. 그 결과, SCHNEEKLUTH duct가 다른 에너지 저감 장치들에 비해 연료소모량 절감과 추진효율의 향상 측면에서 더 효과적이었다. 또한 SCHNEEKLUTH duct가 거주구 진동에도 효과가 있음을 확인하였다. 그리고 연료소모량은 주기관 de-rating을 통해서도 절감할 수 있었다.